CN109611996A - Air treatment system and its application - Google Patents

Abstract

The present invention provides an air treatment system and its applications, wherein the air treatment system includes a detection unit, one processing unit and a bacteriostatic agent generation unit, wherein the bacteriostatic agent generation unit is controllably connected to the processing unit, the processing unit generates a processing result based on the air quality data that the detection unit obtains, and the antibacterial generation unit is based on the processing result and generates a bacteriostatic agent and spray the bacteriostatic agent towards the air processor.

Description

Air treatment system and its application

Technical field

The present invention relates to air-treatment field more particularly to air treatment system and its applications.

Background technique

Air-conditioning is common air processor, and in summer, air-conditioning can send out cold wind, and in winter, air-conditioning can be sent out Warm wind.

The working principle of air-conditioning is to carry out heat exchange with indoor air to reach and change environment sky using refrigerant The effect of temperature degree.There is no swap with extraneous air for actually indoor air.It is answered that is, air-conditioning is actual It is a closed system with environment, people may feel not quite the thing if staying in other for a long time, because in relative closure And in the environment of proper temperature, some bacteriums either virus is easy survival and breeding.Therefore during using air-conditioning, Usually suggest timing ventilation to keep the cleanliness of surrounding air.

Obviously, kept by periodically divulging information the air purity in air conditioner surroundings be in many scenes it is unfavorable, Such as in the office building of modernization, falling object from high altitude, the window of current office building are generally all designed to half-open in order to prevent , it is simple not ensure that the effect that entire environment is divulged information completely by regularly windowing and entire empty in ventilation process Adjust environment temperature that will be changed, human body needs to adapt to different temperature environments, this is very not for the user in environment Just, such as say that, in cold winter, temperature reduction may be made user catch a cold by windowing suddenly.

For this problem, the solution taken in current some air conditioner surroundings is installation fresh air system, fresh air system The air of indoor and outdoor can be swapped, extraneous fresh air is enabled to be transported to interior, however fresh air system price Costly, only air-conditioned environment needs to install additional fresh air system again originally, and the installation of fresh air system needs centainly Space.For the small apartment either user of spaces compact, enough spaces possibly can not be provided for installing fresh air system.

Summary of the invention

A purpose of the present invention is that an air treatment system and its application are provided, wherein the air processor includes One air conditioner filter screen, the air conditioner filter screen can be applied to an air-conditioning, and for air-conditioning air in the environment play it is antibacterial Effect.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air conditioner filter screen is mounted with One bacteriostatic agent, wherein the bacteriostatic agent can play bacteriostasis for air.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor energy It is enough that bacteriostasis is played by way of filtering.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor energy It is enough that bacteriostasis is played by way of disseminating.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor has There is a biggish working range.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor energy The bacteriostatic agent is enough discharged to air.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor is released The bacteriostatic agent put can follow the air-supply of the air-conditioning to be easily disseminated to environment.

Another object of the present invention is to provide an air treatment system and its applications, wherein the air processor energy Enough differences based on environment discharge the different bacteriostatic agents.

According to another aspect of the present invention, the present invention provides an air treatment system, the air treatment systems and one Air processor cooperating, the air treatment system include:

One detection unit；

One processing unit；And

One bacteriostatic agent generation unit, wherein the bacteriostatic agent generation unit is controllably connected to the processing unit, The processing unit generates a processing result based on the air quality data that the detection unit obtains, and the antibacterial generation is single Member generates a bacteriostatic agent based on the processing result and sprays the bacteriostatic agent towards the air processor.

An embodiment according to the present invention, the air processor includes an air conditioner filter screen, wherein the air conditioner filter screen Including a filter house and an antibacterial portion, wherein the filter house includes a filter holder, wherein the filter holder is with multiple The sieve pore at interval, wherein the antibacterial portion is arranged at the filter house, and at least partly described sieve pore keeps perforation.

An embodiment according to the present invention, the antibacterial portion includes a carrier and a bacteriostatic agent, wherein the bacteriostatic agent quilt Be carried on the carrier, wherein the bacteriostatic agent be selected from combination rose effective component, lemon effective component and aloe effectively at Point one of or it is a variety of.

An embodiment according to the present invention, the rose effective component are made by the following method:

Rose is lyophilized；

Powder is made；

An at least solvent is added, and

The supernatant in solvent described in rear rotary evaporation is soaked for a period of time to obtain rose effective component.

An embodiment according to the present invention, the carrier in the antibacterial portion are titanium dioxide or active carbon, and institute Stating air processor further comprises a ultraviolet lamp, wherein the ultraviolet lamp is arranged at the filter holder.

An embodiment according to the present invention, the bacteriostatic agent generation unit include at least a raw material memory, a bacteriostatic agent Generator and a nozzle, wherein each raw material memory can be connected to the bacteriostatic agent generator with penetrating through, wherein The nozzle can be connected to the bacteriostatic agent generator with penetrating through.

An embodiment according to the present invention, the nozzle are rotatably connected at the bacteriostatic agent generator.

According to another aspect of the present invention, the present invention provides an air treatment systems, the air-conditioning applied to an air-conditioning Strainer, wherein the air treatment system includes:

One detection unit；

One processing unit；And

One bacteriostatic agent generation unit includes that a bacteriostatic agent generates ontology and a nozzle, wherein the nozzle is located at the air-conditioning An air outlet and the air conditioner filter screen between, wherein the nozzle, which is rotatably connected at the bacteriostatic agent, generates ontology, The bacteriostatic agent generation unit is controllably connected to the processing unit, and the processing unit is based on the detection unit and obtains The air quality data obtained generates a processing result, and it is opposite that the processing unit is based on the processing result control nozzle In the direction of the air conditioner filter screen.

According to another aspect of the present invention, the present invention provides an air-treatment methods comprising following steps:

Obtain an air intake vent of an air-conditioning and the air quality data of an air outlet；

Judge whether an air conditioner filter screen of the air-conditioning is in normal operating conditions based on the air quality data；And

If it is not, spraying bacteriostatic agent towards the air conditioner filter screen.

According to another aspect of the present invention, the present invention provides an air-treatment methods comprising following steps:

An air quality data of environment where obtaining an air-conditioning；

It is antibacterial to judge whether environment where the air-conditioning needs based on the air quality；And

If so, an air outlet of a bacteriostatic agent generation unit towards the air-conditioning sprays bacteriostatic agent, wherein described antibacterial Agent generation unit is located at an air duct of the air-conditioning.

Detailed description of the invention

Fig. 1 is the schematic diagram of an air-conditioning according to a preferred embodiment of the present invention.

Fig. 2 is the schematic diagram of an air conditioner filter screen according to a preferred embodiment of the present invention.

Fig. 3 is the schematic diagram of an air conditioner filter screen according to a preferred embodiment of the present invention.

Fig. 4 is the application schematic diagram of a bacteriostatic agent generation unit according to a preferred embodiment of the present invention.

Fig. 5 is the application schematic diagram of an air-conditioning according to a preferred embodiment of the present invention.

Fig. 6 is the application schematic diagram of an air-conditioning according to a preferred embodiment of the present invention.

Fig. 7 is the application schematic diagram of an air-conditioning according to a preferred embodiment of the present invention.

Fig. 8 is the schematic diagram of an air treatment system according to a preferred embodiment of the present invention.

Specific embodiment

It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

It will be understood by those skilled in the art that in exposure of the invention, term " longitudinal direction ", " transverse direction ", "upper", The orientation or position of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" Relationship is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, rather than The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore above-mentioned Term is not considered as limiting the invention.

It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment, The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no It can be interpreted as the limitation to quantity.

With reference to attached drawing 1, an air-conditioning 1000 and its air conditioner filter screen 10 according to the present invention and its application are elucidated with.

The air-conditioning 1000 includes an at least air processor 1 and an air-conditioner body 2, wherein the air processor 1 is installed in the air-conditioner body 2, for handling for the air for entering the air-conditioner body 2.

The air-conditioner body 2 may include the various parts such as compressor, condenser, throttling set and evaporator to reach The basic function of air-conditioning 1000.

The air-conditioner body 2 has an air duct 200, an air intake vent 201 and an air outlet 202, wherein the air intake vent 201 With the air outlet 202 be located at the air duct 200 both ends and the air intake vent 201 and the air outlet 202 it is mutual Perforation.

The air processor 1 is installed in the air-conditioner body 2 and is located at the air duct 200 for entering institute The air for stating air duct 200 is handled.

The air processor 1 can not only play a role in filtering for air, air can also be played antibacterial Effect.

Specifically, the air processor 1 includes an air conditioner filter screen 10, wherein the air conditioner filter screen 10 includes a mistake Filter portion 11 and an antibacterial portion 12, wherein the antibacterial portion 12 is arranged at the filter house 11.The air conditioner filter screen 10 is mounted In the air-conditioner body 2 and it is located at the air duct 200, the air into the air duct 200 is passing through the air conditioner filter screen 10 Filtration after the air-conditioning 1000 is left by the air outlet 202 again.

The filter house 11 includes an at least filter holder 111, wherein the filter holder 111 has multiple sieve pores 1110, wherein the antibacterial portion 12 be arranged at the filter house 11 and at least partly described sieve pore 1110 keep unimpeded so that Air can pass through the air conditioner filter screen 10.

Further, in other embodiments of the invention, the filter house 11 may include a filter layer, wherein institute It states filter layer and is formed with multiple sieve pores 1110 and pass through for air, the filter layer can be cloth either paper stock, described Sieve pore 1110 is not necessarily macroscopic.The antibacterial portion 12 is arranged at the filter house 11.

Further, the antibacterial portion 12 includes a carrier 12 1 and a bacteriostatic agent 122, wherein the bacteriostatic agent 122 loads In the carrier 12 1, wherein the antibacterial portion 12 is supported on filter house 11.Preferably, the carrier 12 1 is solid, described Bacteriostatic agent 122 can be solid, be also possible to liquid, be also possible to gas, when the bacteriostatic agent 122 is carried on the carrier After 121, the antibacterial portion 12 is solid, so that the antibacterial portion 12 can be maintained at the filter house 11.

The carrier 12 1 can be the carriers such as active carbon, diatomite, silica, titanium oxide.In this example, with work Property charcoal for, the active carbon has biggish specific surface area, and cost of manufacture is cheap.

The active carbon can pass through one from the raw material such as bamboo coconut husk either trees, such raw material Fixed technique can obtain granular, the powdery either columnar active carbon.

The bacteriostatic agent 122 may include that one of aloe, rose and lemon are either a variety of, can be by as follows The step of obtain:

It impregnates aloe and is extracted into the mixed liquor to effective Fungicidal substance in aloe in the mixed liquor of alcohol and water In.In order to improve yield, soaking time can be on hour for 24 hours.Alcohol described in the mixed liquor of the alcohol and water accounts for It can be 10% to 90% than range.

Aloe effective component can also be obtained by way of immersion, reflux, suction filtration and revolving.For example, aloe Be soaked in methylene chloride, then certain temperature flow back the regular hour, reflux product can be carried out extraction or It is that reflux product is directly filtered, aloe effective component is then obtained by way of revolving.In aloe effective component Organic solvent may be remained, can by way of freeze-drying or vacuum oil pump extract mode remove.

Rose is heated to reflux using alcohol as solvent, obtains having in rose after being filtered processing for product Imitate Fungicidal substance.Alcohol can be 95% alcohol, and the mass values range of solvent and rose can be 2 times to 10 times. Refluxing extraction process can carry out under 75~90 degree.Product after being heated to reflux can be by cryogenic freezing for 24 hours, then mistake It filters off except impurity obtains final product.

Rose effective component can also be extracted in such a way that water distills, such as multi-disc roseleaf is placed on a steaming It evaporates then to distill in device and obtains Rosa Damascana.

Rose effective component can also obtain as follows:

Rose is lyophilized；

Powder is made；

Solvent is added, solvent can be ethyl alcohol either with water-ethanol；And

Supernatant after immersion one end time in rotary evaporation of solvent is to obtain rose effective component.Can also finally it pass through Freeze-drying obtains the powder of powdered rose effective component.

Further, the pH value of entire mixed system can also be adjusted with dilute hydrochloric acid before immersion.Above-mentioned steps can be with It is completed in the water-bath in 30 degree to 50 to accelerate the speed of the precipitation of the effective component in rose.Further, in soaking process In, the vessel equipped with rose powder and solvent can be to shake, to accelerate the extraction of the rose effective component when impregnating Journey.

Water distills effective sterilization component that lemon obtains lemon.

The preparation method of effective sterilization component is also possible to obtain in the following way in lemon:

It weighs lemon peel 30g to be placed in a beaker, methylene chloride is added by solid-liquid ratio 1:15, is put into ultrasonic unit, if Setting ultrasonic time is 50min, ultrasonic power 200w, after ultrasonic, is filtered, and rinsed several times with methylene chloride.Then, it uses Rotary evaporation in vacuo removes solvent to obtain lemon effective component.Further, in order to remove the moisture in lemon effective component, Lemon effective component can be carried out dehydrating, such as molecular sieve water removal be added, anhydrous sodium sulfate water outlet is either added Either it is connected in vacuum oil pump so that moisture is extracted as far as possible.

It is effective to obtain the lemon effective component, the rose effective component and the aloe respectively through the above way Ingredient.

It is noted that aloe can be added to add rose and rose lemon and rose, lemon and aloe, lemon The effective component of two kinds of ingredients or more is extracted with while obtained with the mixture of aloe.

For example, obtaining a certain amount of lemon and rose, reflow treatment is carried out using methylene chloride as solvent, it is then right It is filtered in the product being heated to reflux, filtered product is rotated to obtain final product, wrapped in final product Include the lemon effective component and the rose effective component.

The lemon effective component, the rose effective component and the aloe effective component can act as antibacterial work With.The lemon effective component, the rose effective component or the aloe effective component can be made into as bacteriostatic agent 122, such as with certain solvent dissolution comparatively safe for human body, the solvent can be alcohol or band There is the ethyl alcohol of certain moisture.

The carrier 12 1 can be soaked in the bacteriostatic agent 122 so that the bacteriostatic agent 122 be attracted to it is described Carrier 12 1.The bacteriostatic agent 122 can be solid, is also possible to liquid, is also possible to gaseous.When the bacteriostatic agent 122 when be solid-state, and the bacteriostatic agent 122 can be mutually mixed with the carrier 12 1, then by institute by way of sintering It states bacteriostatic agent 122 and is carried on the carrier 12 1.The solid bacteriostatic agent 122 can also be dissolved by certain medium, so Carrier 12 1 is impregnated wherein afterwards.

The bacteriostatic agent 122 of liquid can directly be sprayed onto the carrier 12 1, be also possible to 1 quilt of carrier 12 Directly it is soaked in the bacteriostatic agent 122 of liquid.

The carrier 12 1 can also be by direct invasion in the environment of the gassiness bacteriostatic agent 122.

It, can be with it is noted that during either extracting bacteriostatic agent 122 in rose from lemon, aloe The carrier 12 1 and the bacteriostatic agent 122 are first mixed, the antibacterial portion 12 is finally directly obtained.

For example, by before rotating, directly adding in the product in lemon, aloe either rose after reflux Enter the carrier 12 1, such as active carbon powder, then the carrier 12 1 is directly and the bacteriostatic agent 122 is in conjunction with described in formation Antibacterial portion 12.

Further, the antibacterial portion 12 is arranged at the filter house 11.

It is worth noting that, the carrier 12 1 and the bacteriostatic agent 122 mix after mixture be also possible to it is non-solid Either be not be entirely solid, can be flow-like, subsequent by the carrier 12 1 and the bacteriostatic agent 122 Mixture and the filter house 11 in conjunction with forming the solid antibacterial portion 12 during to be formed in the antibacterial portion 12.

It is noted that the filter house 11 can be a multilayered structure, wherein being located at the antibacterial portion of different layers 12 parts can be different, to play different effects.

With reference to shown in attached drawing 2, the antibacterial portion 12 can be capped on the filter house 11 of the air conditioner filter screen 10.

The antibacterial portion 12 can be formed in the filter holder 111 of the filter house 11 by way of coating.Tool It says to body, then solvent dispersion can be added to be mixed in a vessel in the bacteriostatic agent 122 and the carrier 12 1 Object, the mixture can be transferred in a sprayer, be then uniformly coated on the air conditioner filter screen 10.The sky Adjust strainer 10 that can be dried so that the bacteriostatic agent 122 and the carrier 12 1 are fixed on the air conditioner filter screen 10, to be formed The antibacterial portion 12.

The solvent can be dimethyl silicone polymer.

The antibacterial portion 12 can be formed in the filter holder 111 of the filter house 11 by way of sintering.

After the bacteriostatic agent 122 is supported on the carrier 12 1 to form a mixture, the air conditioner filter screen 10 can It is placed in the mixture, then on the one hand makes the mixture become solid-state by way of sintering, on the other hand So that the mixture is attached to the air conditioner filter screen 10.

More specifically, in this example, the mixture of the bacteriostatic agent 122 and the carrier 12 1 can be aligned to Certain shape, so that the mixture of the bacteriostatic agent 122 and the carrier 12 1 can be attached to the described of the filter house 11 Filter holder 111, without resulting in blockage for the sieve pore 1110.

The antibacterial portion 12 can be attached directly to the filter holder 111, can also between the sieve pore 1110, Such as the bacteriostatic agent 122 and 1 mixture of the carrier 12 are filled directly according to certain density in the sieve pore 1110。

With reference to shown in attached drawing 3, load has 1 mixture of the carrier 12 of the bacteriostatic agent 122 according to certain density quilt It is filled in the sieve pore 1110 of the air conditioner filter screen 10.

The air conditioner filter screen 10 can be a multilayered structure, wherein the sieve pore 1110 is perforation for air discrepancy. When load has 1 mixture of the carrier 12 of the bacteriostatic agent 122 to be filled in 1110 mouthfuls of the sieve pore, air can still lead to Cross the sieve pore 1110.

It is noted that the air processor 1 of the air-conditioning 1000 can also include a preposition strainer, wherein Before the preposition strainer is arranged on the air conditioner filter screen 10 and there is certain filter capacity.Air passes through described first Then preposition strainer reaches the air conditioner filter screen 10.The preposition strainer can filter a certain size impurity particle, to reduce A certain size impurity particle blocks the probability of the air conditioner filter screen 10.

Further, with reference to shown in attached drawing 4 and attached drawing 5, the air processor 1 includes a bacteriostatic agent generation unit 20, wherein the bacteriostatic agent generation unit 20 is arranged near the air conditioner filter screen 10.

The bacteriostatic agent generation unit 20 includes that a bacteriostatic agent generates ontology 21, wherein the air processor 1 into one Step includes a processor 30, wherein the processor 30 can control the bacteriostatic agent, to generate ontology 21 described antibacterial to generate one Agent 122.

The bacteriostatic agent generates ontology 21 and includes an at least raw material memory 211 and a bacteriostatic agent generator 212, wherein institute State raw material memory 211 for store an at least effective bacteriostatic ingredients, wherein each raw material memory 211 is by can through device It is connected to the bacteriostatic agent generator 212, wherein the raw material memory 211 and the bacteriostatic agent generator 212 are respectively by institute The control of processor 30 is stated to generate a bacteriostatic agent 122.

The raw material memory 211 can store the effective sterilization component of the lemon, the effective sterilization component of aloe And the effective sterilization component of rose, the raw material stored in each raw material memory 211 can be different, it can also be with It is identical.

The bacteriostatic agent generator 212 includes that a mixing unit 2121 and one distributes portion 2122, wherein the mixing unit 2121 One end can be connected each raw material memory 211 with penetrating through, the other end of the mixing unit 2121 can be connected with penetrating through Portion 2122 is distributed described in being connected to, the portion 2122 that distributes is communicated in the external world so that the raw material first passes around the mixing unit The external world is passed to using described distribute after portion 2122 distributes after 2121 mixing.

It further comprises a solvent memory 213 that the bacteriostatic agent, which generates ontology 21, wherein 213 quilt of solvent memory The bacteriostatic agent generator 212 can be connected to penetrating through.The solvent memory 213 can be used in storing solvent.The solvent It can be mixed in the mixing unit 2121 and other raw materials, to be conducive to distributing for raw material.It can be in the solvent memory 213 It is stored with water either alcohol.It is noted that may exist the solvent for having certain fragrance in the solvent memory 213, So that the bacteriostatic agent 122 that the antibacterial generator generates sprays outwardly, when being then disseminated in air and the antibacterial life The user in same environment that grows up to be a useful person can feel comfortable.

The bacteriostatic agent generation unit 20 further comprises a nozzle 22, wherein the nozzle 22 be arranged on it is described antibacterial Agent generator 212, and the nozzle 22 is connected to the bacteriostatic agent generator 212 and outside.

By the nozzle 22, the bacteriostatic agent 122 for being created on the mixing unit 2121 is distributing portion by described It can outwardly be propagated after 2122.

The portion 2122 that distributes can be a heating device, and each of the bacteriostatic agent 122 is made by way of heating Collision aggravation between small molecule, escapes from the nozzle 22 to be conducive to the bacteriostatic agent 122.

The portion 2122 that distributes can be an air-jet device, help the bacteriostatic agent 122 from the nozzle 22 by air-flow Place's evolution.

Further, the air processor 1 includes a detector 40, wherein the detector 40 is communicably connected It is connected to the processor 30.The detector 40 can be arranged at the air conditioner filter screen 10 either air-conditioner body 1000。

The number of the detector 40 can be multiple, and function can be different.One detector 40 can be with It is arranged at the air intake vent 201 of the air-conditioning 1000, a detector 40 can be arranged at the air conditioner filter screen 10, Another detector 40 can be arranged at 1000 air outlet 202 of air-conditioning, and another detector 40 can be set In the environment where the air-conditioning 1000.

The detector 40 is for detecting the air quality, such as the numerical value of PM2.5 or air predetermined substance Concentration, such as volatile organic matter, such as common pathogenic bacteria either virus etc..

By being arranged at the air intake vent 201 of the air-conditioning 1000 and the air outlet 202 of the air-conditioning 1000 The detector 40, the processor 30 may determine that whether the air conditioner filter screen 10 has reached the work upper limit.

Further, the air processor 1 of the air-conditioning 1000 can also include an alarm 50, wherein described Alarm 50 is communicatively connected in a network in the processor 30, when the knot that the processor 30 is detected based on the detector 40 Fruit finds that the air conditioner filter screen 10 needs replacing, and the processor 30 sends a signal to the alarm 50, the alarm 50 issue an alarm signal.

The Rule of judgment that the air conditioner filter screen 10 needs replacing can be by the 10 front and back air of air conditioner filter screen Whether the range of composition transfer has been more than certain numerical value, such as before by the air conditioner filter screen 10 in air PM2.5 numerical value is 60, and the numerical value of the PM2.5 in the air after by the air conditioner filter screen 10 is 60, then described in explanation Air conditioner filter screen 10 loses basic filtering function, needs to be replaced in time, is said for another example by before the air conditioner filter screen 10 Staphylococcic numerical value in air is 10000cfu/m³, passing through the grape ball in the air after the air conditioner filter screen 10 The numerical value of bacterium is 11000cfu/m³, this illustrates that the air conditioner filter screen 10 loses basic bacteria resistance function, or even plays opposite Effect, bacterium breeds in the air conditioner filter screen 10, therefore the air conditioner filter screen 10 is anxious needs replacing.The alarm 50 issues Alarm signal is to prompt user to replace the strainer.

Further, judge whether it is pre- more than one based on the data that the detector 40 detects in the processor 30 If numerical value, if the data that the detector 40 detects are more than a default value, the processor 30 will be described in control Bacteriostatic agent generator 212 starts operation.

Specifically, be located at the air-conditioning 1000 the air outlet 202 the detector 40 detect about air One data of quality, the processor 30 are examined based on the detector 40 for the air outlet 202 for being located at the air-conditioning 1000 For the data measured by a default value and its comparison, the difference of both discoveries has been more than a preset range, and the processor 30 controls The bacteriostatic agent generator 212 is started to work.

For example, the air conditioner filter screen 10 is 10000cfu/m for the processing capacity of bacterium in air³Per minute, position The detector 40 in the air-conditioning 1000 outlet detects that the total number of bacteria in the current position air is 5000cfu/m³, It has been more than normal range (NR) 2500cfu/m³, injury may cause for the human body in the environment.One of possible reason is The bacteriostasis of the air conditioner filter screen 10 declines, or excessive into the bacterial number in the air of the air-conditioning 1000, than As said within the hospital because disinfection is improper these situations may occurs.The processor 30 obtains the detector 40 and detects Data and issue one control signal.The bacteriostatic agent generator 212 is started to work after receiving the control signal, outwardly The bacteriostatic agent 122 is sprayed, to inhibit the bacterium in air.

Further, the bacteriostatic agent generator 212 can also be according to the exceeded bacterial species of bacterium in air Difference is to discharge the different types of bacteriostatic agent 122.It is understood that the bacteriostatic agent 122 is not restricted to move suppression Bacterium processed, can also molecule harmful for human body for other in air play inhibiting effect.

For example, a detector 40 can be used in detecting staphylococcus aureus, when the processor 30 is based on When the staphylococcus aureus quantity in data discovery air that the detector 40 obtains is exceeded, the processor 30 sends one The control signal is to the bacteriostatic agent generator 212.It is deposited in the raw material memory 211 of the bacteriostatic agent generator 212 It contains and is able to suppress the raw material of golden yellow staphylococcus and is transported to the mixing unit 2121, then distribute 2122 court, portion by described The external world distributes.For inhibiting the raw material of golden yellow staphylococcus to can be the effective component extracted in bitter water rose.In this way Mode targetedly inhibits staphylococcus aureus exceeded in air.

It is noted that the bacteriostatic agent generator 212 can by the air-conditioning 1000 outlet air outwardly efficiently Spray the bacteriostatic agent 122.The bacteriostatic agent 122 can borrow power quickly by the air outlet 202 of the air-conditioning 1000 Propagate to wider array of region.

It is noted that for inhibiting the effective component of golden yellow staphylococcus to can be solid, liquid even Gas, 2121 solvent of mixing unit can also and for inhibiting the equal effective component of golden yellow grape to mix to be conducive to Its aerial propagation.

The bacteriostatic agent generator 212 can play booster action, the air conditioner filter screen 10 lose bacteriostasis or It is that antibacterial processing is carried out either for the air that the air-conditioning 1000 is propagated more than after the bacteriostasis of the air conditioner filter screen 10 Follow the outlet air of the air-conditioning 1000 for the air-conditioning 1000 air in the environment carry out antibacterial processing.

Specifically, a detector 40 is arranged at 1000 institute of air-conditioning in the environment, rather than it is arranged on The air-conditioning 1000, the detector 40 for air quality in the environment detect, the judgement of processor 30 hair It is more than one pre- that the quantity of existing a certain substance, which alreadys exceed difference of the standard value either between the quantity and standard value of a certain substance, If numerical value, the processor 30 sends a signal to the bacteriostatic agent generator 212, so that the bacteriostatic agent 122 sprays outwardly The bacteriostatic agent 122, to purify the air quality of place environment.If it is understood that the air-conditioning during this 1000 there is no working condition is handled, and the air-conditioning 1000 is controllably connected to the processor 30, the processor 30 The air-conditioning 1000 can also be sent a signal to, so that the air-conditioning 1000 starts to set out, to be conducive to the bacteriostatic agent 122 Propagation in space.

Further, the nozzle 22 of the bacteriostatic agent generator 212 can rotate.The nozzle 22 can turn to institute Air conditioner filter screen 10 is stated, the air outlet 202 of the air-conditioning 1000 can be also turned to.

When the processor 30 based on the detector 40 for being located at 10 front and back of the air conditioner filter screen obtain about air When the detection data of quality, it is the filter capacity reduction of the air conditioner filter screen 10 that judgement, which is obtained a result, and one of possible reason is The antibacterial portion 12 of the air conditioner filter screen 10 at least partly reaches the carrying upper limit.User needs replacing the air conditioner filter screen 10, in this process, the processor 30 can send a working signal to the bacteriostatic agent generator 212, wherein described The nozzle 22 of bacteriostatic agent generator 212 is towards the air conditioner filter screen 10, so that the bacteriostatic agent 122 is sprayed to the sky Strainer 10 is adjusted, so that the air conditioner filter screen 10 can continue to work for a period of time and avoid bacterium etc. in the air conditioner filter screen 10 Position accumulation completes the air-conditioning temporarily to extend the service life of the air conditioner filter screen 10 to leave the time of user's abundance for The replacement of strainer 10.

It is noted that when the bacteriostatic agent 122 is liquid, the bacteriostatic agent generator 212 is towards the air-conditioning Strainer 10, which sprays the bacteriostatic agent 122, also can achieve certain cleaning purpose, so that being attached to the one of the air conditioner filter screen 10 A little granule foreigns can fall off from the air conditioner filter screen 10, so that the working efficiency of the air conditioner filter screen 10 improves.

It is further possible to be that the entire bacteriostatic agent generator 212 is rotatablely arranged at the air-conditioner body 1000, the bacteriostatic agent generator 212 is arranged to rotatable so that the nozzle 22 can be towards different directions.

With reference to shown in attached drawing 7, the another application mode of air-conditioning 1000 according to the present invention is elucidated with.

The air processor 1 not only can in air bacterium and virus play inhibiting effect, can also be right Some escaping gas in air play a role in filtering.

The carrier 12 1 in the antibacterial portion 12 of the air processor 1 can be to be made of nano-titanium dioxide Or other photocatalyst materials made of, the antibacterial portion 12 is formed in the air conditioner filter screen 10 by way of spraying The filter house 11.

The air processor 1 further comprises a ultraviolet lamp 60, wherein the ultraviolet lamp 60 is arranged at the sky Strainer 10 is adjusted either to be arranged at the air-conditioner body 1000, the ultraviolet lamp 60 can issue ultraviolet light, and the purple Outer light can be irradiated in the solid antibacterial portion.

When the detector 40 detects that formaldehyde in air ingredient is excessively high, such as in 1000 entry position of air-conditioning When detecting that formaldehyde in air ingredient is excessively high, or in 1000 outlet port of air-conditioning detect formaldehyde in air ingredient mistake Gao Shi, the processor 30 controls the ultraviolet lamp 60 and starts to work, so that the antibacterial portion 12 can be in the irradiation of ultraviolet light It is lower to decompose at least partly described formaldehyde.

It is, of course, understood that the antibacterial portion 12 can play the volatile organic substances such as benzene either toluene It is acted on to certain removal.The antibacterial portion 12 made of titanium dioxide can also play certain work for bacterium and virus With.

It the antibacterial portion 12 can be by active carbon as the carrier 12 1, titanium dioxide and other effective component conducts The inhibitor, for example, by active carbon powder be immersed in by titanium dioxide, the lemon effective component, the rose effectively at Point and the aloe finite element composition mixed liquor in, the antibacterial portion 12 is then formed by way of spraying.

Make it is noted that the antibacterial portion 12 can not only play volatile organic substance certain removal With, can also for bacterium and virus play certain removal either inhibiting effect.

Further, with reference to shown in attached drawing 6 and attached drawing 8, the present invention provides an air treatment systems 3, wherein the sky Gas processing system 3 includes an acquiring unit 31, a processing unit 32 and a bacteriostatic agent generation unit 20, wherein the processing is single Member 32 is communicatively connected in a network in the acquiring unit 31, and the acquiring unit 31 is used to detect the number of the predetermined substance in air Amount, such as bacterium, virus, escaping gas, PM2.5 etc..The processing unit 32 is based on the acquiring unit 31 and detects Data whether judge it more than a default value, if the data that the acquiring unit 31 detects are more than a default value, The so described processing unit 32 controls 20 operation of bacteriostatic agent generation unit.

The acquiring unit 31, which can be integrated, is partially integrated in the detector 40 or acquisition list Member 31 is communicatively connected in a network in the detector 40.

The processing unit 32 can be integrated or part is integrated in the processor 30 or the processing unit 32 are communicatively connected in a network in the processor 30.

The acquiring unit 31 includes that environment obtains module 311 in one and an external environment obtains module 312, wherein in described Environment obtains module 311 and is used to detect the air in an air-conditioning 1000, to obtain at least data about air quality, Wherein the external environment obtains module 312 and is used to detect the air outside an air-conditioning 1000, to obtain 1000 institute of air-conditioning In at least one data about air quality of environment.The interior environment obtains module 311 and the external environment obtains mould Block 312 is communicatively coupled with the processing unit 32 respectively.

The interior environment, which obtains module 311, can obtain the air intake vent 201 and/or the air-conditioning of the air-conditioning 1000 The air quality data of 1000 air outlet 202.

The interior environment obtains module 311 and includes acquisition module 3112 after acquisition module 3111 before a processing and a processing, Wherein before the processing obtain module 3111 be used for obtain air by the air processor 321 processing before about The data of air quality obtain module 3112 for obtaining air after by the air processor 321 after handled The data about air quality.Acquisition module 3112 is connected respectively after obtaining module 3111 and the processing before the processing In the processing unit 32.

The acquiring unit 31 can obtain the data and data type about air quality, such as in air Viral level is 1000cfu/m³, it is herpes simplex virus I-type.

It is understood that the detector 40 can be dedicated for detecting the detector 40 of the virus, for described For air treatment system 3, the number of the detector 40 can be it is multiple, and type can be multiplicity, to detect It is a variety of may be for substance that human body damages.

The processing unit 32 includes a judgment module 321 and a generation module 322, and the generation module 322 is based on institute The judging result for stating judgment module 321 generates an implementing result and the implementing result is sent to the bacteriostatic agent and generates list Member 20, the bacteriostatic agent generation unit 20 are worked based on the implementing result.

For example, the interior environment of the acquiring unit 31 obtains module 311 and gets about the air-conditioning 1000 The air quality data of interior one, the judgment module 321 of the processing unit 32 are based on the air quality data and sentence The bacteriostatic agent generation unit 20 of breaking needs to obtain before the processing unit 32 is based on the processing in which kind of working condition The suppression that the data judgement that module 3112 detects obtains the air processor 1 is obtained after module 3111 and the processing Bacterium portion 12 is in abnormal operating state, such as the total number of bacteria in air is passing through 10 front and back of air conditioner filter screen not Significant change occurs, the processing unit 32 can send a signal to the bacteriostatic agent generation unit 20, the antibacterial generation The nozzle 22 of device is adjusted to towards the air conditioner filter screen 10, sprays the bacteriostatic agent 122 towards the air conditioner filter screen 10, so that The air conditioner filter screen 10 either antibacterial portion 12 can be attached to by obtaining the bacteriostatic agent 122, so that the air-treatment fills Certain air-treatment capability can still be had by setting 1.

Further, the quantity for the bacteriostatic agent 122 that the air conditioner filter screen 10 can be sprayed is limited, the suppression Bacterium generator can be after spraying a certain amount of bacteriostatic agent 122 for the air conditioner filter screen 10, the then nozzle 22 Direction change, to spray the bacteriostatic agent 122 towards 202 direction of the air outlet of the air-conditioning 1000, to be conducive to State distributing for bacteriostatic agent 122.

It is, of course, understood that the direction of the nozzle 22 of the antibacterial generator can also be held in direction The air conditioner filter screen 10.Under the action of 200 interior air-flow of air duct of the air-conditioning 1000, at least partly described bacteriostatic agent 122 follow the air-flow to be conveyed outwardly.

Further, the air treatment system 3 includes an alarm unit 33, wherein the alarm unit 33 can be communicated Ground is connected to the processing unit 32.When the processing result that the processing unit 32 obtains is the air conditioner filter screen 10 and described When antibacterial portion 12 needs replacing, the alarm unit 33 issues a warning message to prompt to replace.

In another embodiment of the invention, the interior environment of the acquiring unit 31 obtains module 311 and gets pass In the air quality data in the air-conditioning 1000, work described in the judgment module 321 of the processing unit 32 Condition judgment module 321 is based on the air quality data and judges which kind of work shape is the bacteriostatic agent generation unit 20 need in State obtains what module 3112 detected after obtaining module 3111 and the processing before the processing unit 32 is based on the processing Data judgement show that the antibacterial portion 12 of the air processor 1 is in normal operating conditions, but passes through the air-conditioning The air quality of strainer 10 is not still able to satisfy a standard conditions.For example, the processing capacity of the air conditioner filter screen 10 is X, Air is being 3X by the data before the air conditioner filter screen 10, and by the air conditioner filter screen 10, treated about air quality Data be 2X, and range safe for human body is 0~X, it is clear that treated, and air is still unable to satisfy user's Health demand.The processing unit 32 can send a signal to the bacteriostatic agent generation unit 20, the antibacterial generator The nozzle 22 is adjusted to towards the air conditioner filter screen 10, the bacteriostatic agent 122 is sprayed towards the air conditioner filter screen 10, to enhance State the processing capacity of air conditioner filter screen 10.The nozzle 22 of the antibacterial generator can also be towards described in the air-conditioning 1000 Air outlet 202, so that the bacteriostatic agent 122 can be directly disseminated in air.

It is noted that the antibacterial generator can be towards the air conditioner filter screen 10 and towards the air-conditioning 1000 The air outlet 202 between toggle.At this point, the nozzle 22 of the antibacterial generator is located at the air conditioner filter screen 10 Between the air outlet 202 of the air-conditioning 1000.

When the nozzle 22 of the antibacterial generator is between the air conditioner filter screen 10, the nozzle 22 can be by It is fixed as towards the air conditioner filter screen 10, while the bacteriostatic agent 122 that the nozzle 22 sprays can follow air-flow to travel to In air.

In another embodiment of the invention, the external environment of the acquiring unit 31 obtains module 312 and gets pass In the air quality data outside the air-conditioning 1000, the judgment module 321 of the processing unit 32 is based on described External environment obtains module 312 and judges current air quality, if a determination be made that existing in the air outside the air-conditioning 1000 Exceed standard material, the generation module 322 generate a processing result, institute based on the air quality data of the acquiring unit 31 It states processing result and is sent to the bacteriostatic agent generation unit 20, the nozzle 22 of the bacteriostatic agent generation unit 20 is adjusted To towards the air outlet 202, the bacteriostatic agent 122 is then disseminated outwardly.

It is noted that the air that the bacteriostatic agent generation unit 20 can be obtained based on the acquiring unit 31 The type of qualitative data generates the corresponding bacteriostatic agent 122.

Further, the acquiring unit 31 further comprises that a user instruction obtains module 313, wherein the user refers to Acquisition module 313 is enabled to be communicatively connected in a network in the processing unit 32.

The processing unit 32 can generate a processing result based on a user instruction.For example, user is in room Inside feel uncomfortable, then by mobile phone, computer or can be to be sent directly to an instruction to the air-conditioning 1000, so that institute It states bacteriostatic agent generation unit 20 and sprays the bacteriostatic agent 122 outwardly, the bacteriostatic agent 122 is per se with smell, such as lemon Taste, aloe taste either rose taste, to be conducive to improve room air.

According to another aspect of the present invention, the present invention provides an air-treatment methods comprising following steps:

Obtain the air intake vent 201 of an air-conditioning 1000 and the air quality data of the air outlet 202；

Judge the air conditioner filter screen 10 of the air-conditioning 1000 whether in normal work based on the air quality data State；And

If it is not, spraying bacteriostatic agent 122 towards the air conditioner filter screen 10.

According to another aspect of the present invention, the present invention provides an air-treatment methods comprising following steps:

Obtain an air quality data of the 1000 place environment of air-conditioning；

It is antibacterial to judge whether the 1000 place environment of air-conditioning needs based on the air quality；And

If so, the air outlet 202 of a bacteriostatic agent generation unit 20 towards the air-conditioning 1000 sprays bacteriostatic agent 122, wherein the bacteriostatic agent generation unit 20 is arranged at the air duct 200 of the air-conditioning 1000.

An embodiment according to the present invention, wherein in the above-mentioned methods, based on underproof in the air quality data Judging result issues an alarm signal.

It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims (10)

1. an air treatment system, which is characterized in that the air treatment system and an air processor cooperating, wherein The air treatment system includes:

One detection unit；

One processing unit；And

One bacteriostatic agent generation unit, wherein the bacteriostatic agent generation unit is controllably connected to the processing unit, it is described Processing unit generates a processing result, the antibacterial generation unit base based on the air quality data that the detection unit obtains A bacteriostatic agent is generated in the processing result and sprays the bacteriostatic agent towards the air processor.

2. air treatment system according to claim 1, wherein the air processor includes an air conditioner filter screen, wherein The air conditioner filter screen includes a filter house and an antibacterial portion, wherein the filter house includes a filter holder, wherein the filtering Bracket has the sieve pore at multiple intervals, wherein the antibacterial portion is arranged at the filter house, and at least partly described sieve pore Keep perforation.

3. air treatment system according to claim 1, wherein the antibacterial portion includes a carrier and a bacteriostatic agent, wherein The bacteriostatic agent is supported on the carrier, wherein the bacteriostatic agent be selected from combination rose effective component, lemon effective component with And one of aloe effective component or a variety of.

4. air treatment system according to claim 3, wherein the rose effective component is made by the following method:

Rose is lyophilized；

Powder is made；

An at least solvent is added, and

The supernatant in solvent described in rear rotary evaporation is soaked for a period of time to obtain rose effective component.

5. air treatment system according to claim 3, wherein the carrier in the antibacterial portion be titanium dioxide or Active carbon, and the air processor further comprises a ultraviolet lamp, wherein the ultraviolet lamp is arranged at the filtering Bracket.

6. according to any air treatment system of claim 2 to 5, wherein the bacteriostatic agent generation unit includes at least one Raw material memory, a bacteriostatic agent generator and a nozzle, wherein each raw material memory can be connected to institute with penetrating through Bacteriostatic agent generator is stated, wherein the nozzle can be connected to the bacteriostatic agent generator with penetrating through.

7. air treatment system according to claim 6, wherein the nozzle is rotatably connected at the bacteriostatic agent Generator.

8. an air treatment system, the air conditioner filter screen applied to an air-conditioning characterized by comprising

One detection unit；

One processing unit；And

One bacteriostatic agent generation unit includes that a bacteriostatic agent generates ontology and a nozzle, wherein the nozzle is located at the one of the air-conditioning Between air outlet and the air conditioner filter screen, wherein the nozzle, which is rotatably connected at the bacteriostatic agent, generates ontology, it is described Bacteriostatic agent generation unit is controllably connected to the processing unit, and the processing unit is obtained based on the detection unit One air quality data generates a processing result, and the processing unit is based on the processing result and controls the nozzle relative to institute State the direction of air conditioner filter screen.

9. an air-treatment method, which comprises the steps of:

Obtain an air intake vent of an air-conditioning and the air quality data of an air outlet；

Judge whether an air conditioner filter screen of the air-conditioning is in normal operating conditions based on the air quality data；And

If it is not, spraying bacteriostatic agent towards the air conditioner filter screen.

10. an air-treatment method, which comprises the steps of:

An air quality data of environment where obtaining an air-conditioning；

It is antibacterial to judge whether environment where the air-conditioning needs based on the air quality；And

If so, an air outlet of a bacteriostatic agent generation unit towards the air-conditioning sprays bacteriostatic agent, wherein the bacteriostatic agent is raw It is located at an air duct of the air-conditioning at unit.